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package behaviour_test
import (
"sync"
"testing"
bh "github.com/tendermint/tendermint/behaviour"
"github.com/tendermint/tendermint/p2p"
)
// TestMockReporter tests the MockReporter's ability to store reported
// peer behaviour in memory indexed by the peerID.
func TestMockReporter(t *testing.T) {
var peerID p2p.ID = "MockPeer"
pr := bh.NewMockReporter()
behaviours := pr.GetBehaviours(peerID)
if len(behaviours) != 0 {
t.Error("Expected to have no behaviours reported")
}
badMessage := bh.BadMessage(peerID, "bad message")
pr.Report(badMessage)
behaviours = pr.GetBehaviours(peerID)
if len(behaviours) != 1 {
t.Error("Expected the peer have one reported behaviour")
}
if behaviours[0] != badMessage {
t.Error("Expected Bad Message to have been reported")
}
}
type scriptItem struct {
peerID p2p.ID
behaviour bh.PeerBehaviour
}
// equalBehaviours returns true if a and b contain the same PeerBehaviours with
// the same freequencies and otherwise false.
func equalBehaviours(a []bh.PeerBehaviour, b []bh.PeerBehaviour) bool {
aHistogram := map[bh.PeerBehaviour]int{}
bHistogram := map[bh.PeerBehaviour]int{}
for _, behaviour := range a {
aHistogram[behaviour] += 1
}
for _, behaviour := range b {
bHistogram[behaviour] += 1
}
if len(aHistogram) != len(bHistogram) {
return false
}
for _, behaviour := range a {
if aHistogram[behaviour] != bHistogram[behaviour] {
return false
}
}
for _, behaviour := range b {
if bHistogram[behaviour] != aHistogram[behaviour] {
return false
}
}
return true
}
// TestEqualPeerBehaviours tests that equalBehaviours can tell that two slices
// of peer behaviours can be compared for the behaviours they contain and the
// freequencies that those behaviours occur.
func TestEqualPeerBehaviours(t *testing.T) {
var (
peerID p2p.ID = "MockPeer"
consensusVote = bh.ConsensusVote(peerID, "voted")
blockPart = bh.BlockPart(peerID, "blocked")
equals = []struct {
left []bh.PeerBehaviour
right []bh.PeerBehaviour
}{
// Empty sets
{[]bh.PeerBehaviour{}, []bh.PeerBehaviour{}},
// Single behaviours
{[]bh.PeerBehaviour{consensusVote}, []bh.PeerBehaviour{consensusVote}},
// Equal Frequencies
{[]bh.PeerBehaviour{consensusVote, consensusVote},
[]bh.PeerBehaviour{consensusVote, consensusVote}},
// Equal frequencies different orders
{[]bh.PeerBehaviour{consensusVote, blockPart},
[]bh.PeerBehaviour{blockPart, consensusVote}},
}
unequals = []struct {
left []bh.PeerBehaviour
right []bh.PeerBehaviour
}{
// Comparing empty sets to non empty sets
{[]bh.PeerBehaviour{}, []bh.PeerBehaviour{consensusVote}},
// Different behaviours
{[]bh.PeerBehaviour{consensusVote}, []bh.PeerBehaviour{blockPart}},
// Same behaviour with different frequencies
{[]bh.PeerBehaviour{consensusVote},
[]bh.PeerBehaviour{consensusVote, consensusVote}},
}
)
for _, test := range equals {
if !equalBehaviours(test.left, test.right) {
t.Errorf("expected %#v and %#v to be equal", test.left, test.right)
}
}
for _, test := range unequals {
if equalBehaviours(test.left, test.right) {
t.Errorf("expected %#v and %#v to be unequal", test.left, test.right)
}
}
}
// TestPeerBehaviourConcurrency constructs a scenario in which
// multiple goroutines are using the same MockReporter instance.
// This test reproduces the conditions in which MockReporter will
// be used within a Reactor `Receive` method tests to ensure thread safety.
func TestMockPeerBehaviourReporterConcurrency(t *testing.T) {
var (
behaviourScript = []struct {
peerID p2p.ID
behaviours []bh.PeerBehaviour
}{
{"1", []bh.PeerBehaviour{bh.ConsensusVote("1", "")}},
{"2", []bh.PeerBehaviour{bh.ConsensusVote("2", ""), bh.ConsensusVote("2", ""), bh.ConsensusVote("2", "")}},
{
"3",
[]bh.PeerBehaviour{bh.BlockPart("3", ""),
bh.ConsensusVote("3", ""),
bh.BlockPart("3", ""),
bh.ConsensusVote("3", "")}},
{
"4",
[]bh.PeerBehaviour{bh.ConsensusVote("4", ""),
bh.ConsensusVote("4", ""),
bh.ConsensusVote("4", ""),
bh.ConsensusVote("4", "")}},
{
"5",
[]bh.PeerBehaviour{bh.BlockPart("5", ""),
bh.ConsensusVote("5", ""),
bh.BlockPart("5", ""),
bh.ConsensusVote("5", "")}},
}
)
var receiveWg sync.WaitGroup
pr := bh.NewMockReporter()
scriptItems := make(chan scriptItem)
done := make(chan int)
numConsumers := 3
for i := 0; i < numConsumers; i++ {
receiveWg.Add(1)
go func() {
defer receiveWg.Done()
for {
select {
case pb := <-scriptItems:
pr.Report(pb.behaviour)
case <-done:
return
}
}
}()
}
var sendingWg sync.WaitGroup
sendingWg.Add(1)
go func() {
defer sendingWg.Done()
for _, item := range behaviourScript {
for _, reason := range item.behaviours {
scriptItems <- scriptItem{item.peerID, reason}
}
}
}()
sendingWg.Wait()
for i := 0; i < numConsumers; i++ {
done <- 1
}
receiveWg.Wait()
for _, items := range behaviourScript {
reported := pr.GetBehaviours(items.peerID)
if !equalBehaviours(reported, items.behaviours) {
t.Errorf("expected peer %s to have behaved \nExpected: %#v \nGot %#v \n",
items.peerID, items.behaviours, reported)
}
}
}